介入设备的实时三维超声引导
Real-time 3-D ultrasound guidance of interventional devices.
作者信息
Light Edward D, Angle John F, Smith Stephen W
机构信息
Department of Biomedical Engineering, Duke University, Durham, NC, USA.
出版信息
IEEE Trans Ultrason Ferroelectr Freq Control. 2008 Sep;55(9):2066-78. doi: 10.1109/TUFFC.898.
We have previously developed 2-D array transducers for many real-time volumetric imaging applications. These applications include transducers operating up to 7 MHz for transthoracic imaging, up to 15 MHz for intracardiac echocardiography (ICE), 5 MHz for transesophageal echocardiography (TEE) and intracranial imaging, and 7 MHz for laparoscopic ultrasound imaging (LUS). Now we have developed a new generation of miniature ring-array transducers integrated into the catheter deployment kits of interventional devices to enable real-time 3-D ultrasound scanning for improved guidance of minimally invasive procedures. We have constructed 3 new ring transducers. The first consists of 54 elements operating at 5 MHz. Typical measured transducer element bandwidth was 25%, and the 50 Ohm round trip insertion loss was -65 dB. Average nearest neighbor cross talk was -23.8 dB. The second is a prototype 108-element transducer operating at 5 MHz. The third is a prototype 108-element ring array with a transducer center frequency of 8.9 MHz and a -6 dB bandwidth of 25%. All transducers were integrated with an 8.5 French catheter sheath of a Cook Medical, Inc. vena cava filter deployment device.
我们之前已为多种实时容积成像应用开发了二维阵列换能器。这些应用包括用于经胸成像的高达7兆赫兹的换能器、用于心内超声心动图(ICE)的高达15兆赫兹的换能器、用于经食管超声心动图(TEE)和颅内成像的5兆赫兹的换能器,以及用于腹腔镜超声成像(LUS)的7兆赫兹的换能器。现在,我们开发了新一代微型环形阵列换能器,将其集成到介入设备的导管部署套件中,以实现实时三维超声扫描,从而改善对微创手术的引导。我们构建了3种新型环形换能器。第一种由54个元件组成,工作频率为5兆赫兹。典型的测得换能器元件带宽为25%,50欧姆往返插入损耗为-65分贝。平均最近邻串扰为-23.8分贝。第二种是工作频率为5兆赫兹的108元件原型换能器。第三种是原型108元件环形阵列,换能器中心频率为8.9兆赫兹,-6分贝带宽为25%。所有换能器均与库克医疗公司腔静脉滤器部署设备的8.5法式导管鞘集成在一起。
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